Squashed 7-spheres, octonions and the swampland
Abstract
The entire eigenvalue spectrum of the operators on the squashed S7 that appear in the Freund-Rubin compactification of eleven-dimensional supergravity was recently derived in [1 - 4]. Here we give a brief account of this work which started with [1] where the complete spectrum of irreducible isometry representations of the fields in AdS4 was derived for the squashed S7 compactification. The operator spectra determine the mass spectrum of the fields in AdS4 and are important for the corresponding N =1 supermultiplet structure which appears in two versions depending on the choice of boundary conditions. By an orientation-flip on the squashed S7 we can also determine the spectrum of the corresponding non-supersymmetric theory, and, e.g., its spectrum of marginal operators on the boundary of AdS4 which may have some relevance for the AdS stability conjecture in the swampland program. The role of singletons is discussed and a possible new Higgsing phenomenon turning them into bulk fields is suggested. Details are here given primarily for 2-forms and comments are made on the key role of G2 and octonions for the structure of the operator equations and mode functions on the squashed S7. Some important features of these improved methods were obtained in Joel Karlsson's 2021 MSc thesis [5]. This is an extended version of the author's contribution to the proceedings of the conference ISQS28, Prague, Czech Republic, July 1 - 5, 2024.
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